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Temperature effects on carbon storage are controlled by soil stabilisation capacities

Iain P. Hartley, Tim Hill, Sarah Chadburn, Gustaf Hugelius

2021Nature Communications201 citationsDOIOpen Access PDF

Abstract

Physical and chemical stabilisation mechanisms are now known to play a critical role in controlling carbon (C) storage in mineral soils, leading to suggestions that climate warming-induced C losses may be lower than previously predicted. By analysing > 9,000 soil profiles, here we show that, overall, C storage declines strongly with mean annual temperature. However, the reduction in C storage with temperature was more than three times greater in coarse-textured soils, with limited capacities for stabilising organic matter, than in fine-textured soils with greater stabilisation capacities. This pattern was observed independently in cool and warm regions, and after accounting for potentially confounding factors (plant productivity, precipitation, aridity, cation exchange capacity, and pH). The results could not, however, be represented by an established Earth system model (ESM). We conclude that warming will promote substantial soil C losses, but ESMs may not be predicting these losses accurately or which stocks are most vulnerable.

Topics & Concepts

Soil waterEnvironmental scienceAridPrecipitationSoil carbonCarbon fibersProductivityClimate changeSoil scienceAtmospheric sciencesEcologyGeologyMaterials scienceMeteorologyBiologyGeographyComposite materialEconomicsMacroeconomicsComposite numberSoil Carbon and Nitrogen DynamicsPeatlands and Wetlands EcologySoil and Unsaturated Flow
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